Absorbed
absorbed
When the sun's rays strike Earth's surface, the energy is either absorbed, reflected, or scattered. This energy is essential for driving various processes on Earth, such as warming the surface, powering the water cycle, and enabling photosynthesis in plants.
When the Sun's rays strike Earth's surface, energy is absorbed and converted into heat. This process is responsible for heating the land, oceans, and atmosphere, driving processes such as weather patterns and the water cycle.
Absorbed
Oblique
Energy is being absorbed AND being reflected when the sun's ray strike the Earth's surface.
The angle at which the sun's rays strike the Earth's surface affects the intensity of the sunlight spread over a larger or smaller area, impacting the surface temperature. When the sun's rays hit the Earth at a higher angle (closer to perpendicular), the energy is concentrated over a smaller area, leading to higher temperatures. Conversely, when the angle is lower (closer to parallel), the energy is spread over a larger area, resulting in lower temperatures.
Usually, as the angle of incidence of the sun's rays decrease (i.e. when the sun is nearer to the horizon than to the zenith) the temperature decreases.
it decreases... that's why the two poles are the coldest places on earth... however, considering the earth is a sphere the angle you are talking about is relative to the point on earth which you are referring to... therefore, there will always be a point on the earth's surface where the suns rays are hitting at exactly 90 degrees...
Either the answer will be that they contain more solar energy, it strike's the earth at an angle greater than 90 degrees, or it could be that they spread energy over a larger surface area.
The Ozone layer.
Obviously the angle of incidence is different. The oblique rays spread their energy over a larger area of the surface than vertical (also called perpendicular or normal rays)